Coarsening kinetics of Cu particles in an Fe-1.5 % Cu alloy

Ryoichi Monzen; Kenichi Takada; Kenji Matsuda

doi:10.3139/146.031241

Coarsening kinetics of Cu particles in an Fe-1.5 % Cu alloy

Ryoichi Monzen^*, Kenichi Takada, Kenji Matsuda

^*この論文の責任著者

材料デザイン工学科

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

30 被引用数 (Scopus)

抄録

The Ostwald ripening of spherical and rod-shaped Cu precipitate particles in an Fe-1.5 mass% Cu alloy aged between 873 and 1023 K has been examined by measuring both the particle size by electron microscopy and the Cu concentration in the α-Fe matrix by electrical resistivity. The average radius of spherical and rod-shaped particles increases with ageing time t as t ^1/3, in agreement with the growth by diffusion-controlled coarsening. The kinetics of the depletion of supersaturation with t obey the predicted t^-1/3 time law. The Cu/α-Fe interfacial energy and the diffusivity of Cu in α-Fe have been independently derived from the data on coarsening. The interracial energies are measured as 0.57 and 1.1 Jm ^-2 for the spherical and rod-shaped particles respectively. The pre-exponential factor and the activation energy for bulk diffusion are found to be 4.54×10^-5 m²s^-1 and 241 kJmol ^-1.

本文言語	英語
ページ（範囲）	1241-1246
ページ数	6
ジャーナル	Zeitschrift fuer Metallkunde/Materials Research and Advanced Techniques
巻	94
号	11
DOI	https://doi.org/10.3139/146.031241
出版ステータス	出版済み - 2003/11

ASJC Scopus 主題領域

凝縮系物理学
物理化学および理論化学
金属および合金
材料化学

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10.3139/146.031241

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title = "Coarsening kinetics of Cu particles in an Fe-1.5 % Cu alloy",

abstract = "The Ostwald ripening of spherical and rod-shaped Cu precipitate particles in an Fe-1.5 mass% Cu alloy aged between 873 and 1023 K has been examined by measuring both the particle size by electron microscopy and the Cu concentration in the α-Fe matrix by electrical resistivity. The average radius of spherical and rod-shaped particles increases with ageing time t as t 1/3, in agreement with the growth by diffusion-controlled coarsening. The kinetics of the depletion of supersaturation with t obey the predicted t-1/3 time law. The Cu/α-Fe interfacial energy and the diffusivity of Cu in α-Fe have been independently derived from the data on coarsening. The interracial energies are measured as 0.57 and 1.1 Jm -2 for the spherical and rod-shaped particles respectively. The pre-exponential factor and the activation energy for bulk diffusion are found to be 4.54×10-5 m2s-1 and 241 kJmol -1.",

keywords = "Activation energy, Coarsening, Cu particles, Diffusion coefficient, Fe-Cu alloy, Interfacial energy",

author = "Ryoichi Monzen and Kenichi Takada and Kenji Matsuda",

year = "2003",

month = nov,

doi = "10.3139/146.031241",

language = "英語",

volume = "94",

pages = "1241--1246",

journal = "Zeitschrift fuer Metallkunde/Materials Research and Advanced Techniques",

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number = "11",

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TY - JOUR

T1 - Coarsening kinetics of Cu particles in an Fe-1.5 % Cu alloy

AU - Monzen, Ryoichi

AU - Takada, Kenichi

AU - Matsuda, Kenji

PY - 2003/11

Y1 - 2003/11

N2 - The Ostwald ripening of spherical and rod-shaped Cu precipitate particles in an Fe-1.5 mass% Cu alloy aged between 873 and 1023 K has been examined by measuring both the particle size by electron microscopy and the Cu concentration in the α-Fe matrix by electrical resistivity. The average radius of spherical and rod-shaped particles increases with ageing time t as t 1/3, in agreement with the growth by diffusion-controlled coarsening. The kinetics of the depletion of supersaturation with t obey the predicted t-1/3 time law. The Cu/α-Fe interfacial energy and the diffusivity of Cu in α-Fe have been independently derived from the data on coarsening. The interracial energies are measured as 0.57 and 1.1 Jm -2 for the spherical and rod-shaped particles respectively. The pre-exponential factor and the activation energy for bulk diffusion are found to be 4.54×10-5 m2s-1 and 241 kJmol -1.

AB - The Ostwald ripening of spherical and rod-shaped Cu precipitate particles in an Fe-1.5 mass% Cu alloy aged between 873 and 1023 K has been examined by measuring both the particle size by electron microscopy and the Cu concentration in the α-Fe matrix by electrical resistivity. The average radius of spherical and rod-shaped particles increases with ageing time t as t 1/3, in agreement with the growth by diffusion-controlled coarsening. The kinetics of the depletion of supersaturation with t obey the predicted t-1/3 time law. The Cu/α-Fe interfacial energy and the diffusivity of Cu in α-Fe have been independently derived from the data on coarsening. The interracial energies are measured as 0.57 and 1.1 Jm -2 for the spherical and rod-shaped particles respectively. The pre-exponential factor and the activation energy for bulk diffusion are found to be 4.54×10-5 m2s-1 and 241 kJmol -1.

KW - Activation energy

KW - Coarsening

KW - Cu particles

KW - Diffusion coefficient

KW - Fe-Cu alloy

KW - Interfacial energy

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U2 - 10.3139/146.031241

DO - 10.3139/146.031241

M3 - 学術論文

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SN - 0044-3093

VL - 94

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EP - 1246

JO - Zeitschrift fuer Metallkunde/Materials Research and Advanced Techniques

JF - Zeitschrift fuer Metallkunde/Materials Research and Advanced Techniques

IS - 11

ER -

Coarsening kinetics of Cu particles in an Fe-1.5 % Cu alloy

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